[1]苏三庆,高 波,王 威,等. 建筑钢板件力磁效应的ANSYS有限元模拟研究[J].西安建筑科技大学学报(自然科学版),2016,48(06):771-775,782.[doi:10.15986/j.1006-7930.2016.06.001]
 SU Sanqing,Gao Bo,Wang Wei,et al. Research on ANSYS finite element simulation of stress-magnetization effect on tensile steel plate[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2016,48(06):771-775,782.[doi:10.15986/j.1006-7930.2016.06.001]
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 建筑钢板件力磁效应的ANSYS有限元模拟研究()
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西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
48
期数:
2016年06期
页码:
771-775,782
栏目:
出版日期:
2016-12-31

文章信息/Info

Title:
 Research on ANSYS finite element simulation of stress-magnetization effect on tensile steel plate
文章编号:
1006-7930(2016)06-0771-05
作者:
 苏三庆高 波王 威易术春马小平
 西安建筑科技大学土木工程学院,陕西 西安 710055
Author(s):
 SU Sanqing Gao Bo Wang Wei yi Shuchun MA Xiaoping
School of Civil Engineering, Xiʹan Univ. of Arch. & Tech., Xiʹan 710055, China
关键词:
钢结构有限单元法金属磁记忆应力集中力磁效应
Keywords:
steel structure finite element method metal magnetic memory stress concentration stress-magnetic effect
分类号:
TU94+2;TG115.28
DOI:
10.15986/j.1006-7930.2016.06.001
文献标志码:
A
摘要:
为研究建筑用钢早期损伤和金属磁记忆信号的相互关系,采用ANSYS有限元分析软件,通过对建筑结构广泛使用的Q345B钢进行地球磁场下拉伸荷载的力磁效应二维平面模拟,得到不同载荷下人工浅槽试件表面漏磁场强度法向分量B(y)及其梯度值K的分布规律.研究表明,弹性阶段应力集中区的漏磁信号随应力呈规律性增加,屈服后,浅槽部位进入弹塑性状态的范围增加,漏磁信号的影响范围也随之扩大,较快增长的塑性变形对用应力来表征漏磁信号变化造成了影响,最后将模拟结果和试验结果对比,证实了模拟结果的可行性与可靠性,为金属磁记忆检测技术在建筑等领域的应用提供参考依据.
Abstract:

In the study on the relationship between early damage of building steel and metal magnetic memory signal, the stress concentration evaluation method using the normal component of the magnetic flux leakage signal B(y) and its gradient K are presented based on widely used steel Q345B in building structures under the geo-magnetic field. The finite element method by ANSYS analysis software was used to model two human-made tiny pits in the middle of specimens, the distribution of magnetic memory signal under different applied loads, namely the stress-magnetization effect, was analyzed. Results show that, magnetic flux leakage signal around stress concentration area rises regularly with stress increasing under the elastic stage. After yielding, the area of tiny pit portion goes into the inelastic state, as the range increases, and the scope of magnetic flux leakage signal expands as well. Additionally, the rapid growth of plastic deformation affects magnetic flux leakage characterized by the stress change. Finally, the corresponding experiments were tested to validate the results of modeling. The research results can serve as a reference of application to metal magnetic memory(MMM) test technique for building steel structure.

参考文献/References:

[1] DUBOV A A. Development of a metal magnetic memory method[J]. Chemical & Petroleum Engineering, 2012,47: 837-839.

[2] WU Dabo, XU Minqiang, LI Jianwei. Study on physical mechanism of metal magnetic memory technique[J]. Applied Mechanics & Materials, 2010, 34-35:841-844.

[3] WANG Wei, YI Shuchun, SU Sanqing. Experimental investigation of stress and damage characterization of steel beam buckling using magnetic memory signals[J]. Structural Design of Tall & Special Buildings, 2016, 25(11):508-518.

[4] 王威, 曾发荣, 苏三庆, 等. 基于磁记忆的受弯钢梁力-磁效应试验[J].材料科学与工程学报,2016,34(1):109- 114.

WANG Wei, ZENG Farong, SU Sanqing, et al. Experimental research on magnetic mechanical effective- ness of bending steel beam based on metal magnetic memory[J]. Materials Science & Engineering,2016,34 (1): 109-114.

[5] 王威, 易术春, 苏三庆, 等. 建筑钢试件拉伸应力与其磁记忆效应漏磁场梯度的对应关系研究[J].西安建筑科技大学学报(自然科学版),2015,47(3):341-346.

WANG Wei, YI Shuchun, SU Sanqing, et al. Research on the relationship between magnetic flux leakage gradient by metal magnetic memory effect and tensile stress of building steel specimen[J]. J. Xiʹan Univ. of Arch. & Tech. (Natural Science Edition), 2015,47(3):341-346.

[6] 任吉林, 王东升, 宋凯, 等. 应力状态对磁记忆信号的影响[J]. 航空学报,2007, 28(3): 724-728.
REN Jilin, WANG Dongsheng, SONG Kai, et al. Influence of stress state on magnetic memory signal[J]. Acta Aeron Nautical Et Astronautica Sinica, 2007,28(3): 724-728.

[7] LENG Jiancheng, LIU Yang, ZHOU Guoqiang, et al. Metal magnetic memory signal response to plastic deformation of low carbon steel[J]. Ndt & E International, 2013, 55(3):42-46.

[8] XU Mingxiu, XU Minqiang, LI Jianwei et al. Metal magnetic memory field characterization at early fatigue damage based on modified Jiles-Atherton model[J]. Journal of Central South University, 2012,19(6):1488- 1496.

[9] 杨理践, 刘斌, 高松巍,等. 金属磁记忆效应的第一性原理计算与实验研究[J].物理学报,2013,62(8):086201- 086207.

YANG Lijian, LIU Bin, GAO Songwei, et al. First-principles calculation and experimental study of metal magnetic memory effects[J]. Acta Physica Sinica, 2013, 62(8): 086201-086207.

[10] 姚凯,王正道,邓博,等. 金属磁记忆技术的数值研究[J]. 工程力学,2011(9):218-222.

YAO Kai, WANG Zhengdao, DENG Bo, et al. Numerical study on metal magnetic memory technique[J]. Engine- ering Mechanics,2011,28(9):218-222.

[11] 王社良, 王威, 苏三庆, 等. 铁磁材料相对磁导率变化与应力关系的磁力学模型[J].西安科技大学学报, 2005,25(3):288-291.

WANG Sheliang, WANG Wei, SU Sanqing, et al. Magneto-mechanical model on differential permeability and stress of ferromagnetic material[J].Journal of Xiʹan University of Science and Technology, 2005,25(3):288- 291.

[12] 阎照文.ANSYS10.0工程电磁分析技术与实例详解[M].北京:中国水利水电出版社,2006.

YAN Zhaowen.ANSYS10.0Engineeringelectromag- netic analysis technique and detailed examples[M]. Beijing: China Water Resources and Hydropower Publishing House, 2006.

[13] 胡仁喜. ANSYS13.0多物理耦合场有限元分析从入门到精通[M]. 北京:机械工业出版社,2012.

HU Renxi. ANSYS 13.0 multi-physics coupling finite element analysis (From entry to the master)[M]. Beijing: Mechanical Industry Press, 2012.

[14] 任吉林, 林俊明, 池永滨, 等. 金属磁记忆检测技术[M]. 北京: 中国电力出版社,2000.

REN Jilin, LIN Junming, CHI Yongbin, etal. Metal magnetic memory testing technology[M]. Beijing: China Electric Power Press,2000.

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备注/Memo

备注/Memo:
收稿日期:2016-04-01 修改稿日期:2016-10-28

基金项目:国家自然科学基金资助面上项目(51478383,51578449);陕西省自然科学基金资助面上项目(2015JM5192)

作者简介:苏三庆(1961-),男,教授,博导,主要从事结构抗震设计、健康监测方面的研究.E-mail: sussq@xauat.edu.cn
更新日期/Last Update: 2017-01-26